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    Introduction of three types of nitride powder

    The binary compound nitride is made up of nitrogen and an element which has a lower electronegativity. Nitrogen, which has a high electronegativity can form nitrides in a variety of forms, such as ionic nitrides. onic nitride
    Nitrides formed from alkali metals or alkaline Earth metal elements are called ionic. They have crystals that are mostly ionic, while nitrogen is in the form N3+, which is also known by the name salt-like nitrides. Li3N, the only ionic nitride currently used, is a deep red solid. Li3N belongs to the hexagonal crystalline system and is a red solid with a density of 1.27g/cm3 as well as a melting point 813degC. It is very easy to synthesize, and it has a good ionic conductivity. It can be combined either with solids or liquids. Coexistence of Lithium is one of best solid lithium electrodes currently available.

    Covalent nitride
    Covalent nitrides are formed when group IIIAVIIA element are combined. The majority of their crystals consist of covalent bonding. Nitrogen oxides and nitrogen halos are the correct names for compounds that oxygen, group VIIIA elements and nitrogen form. Covalent nitrides (such as AlN, GaN and InN) are the most commonly used. The unit of structure is similar to that of a diamond tetrahedron, and so is known as class Diamond nitride. They are hard, have a high melting temperature, and exhibit good chemical stability. The majority of them are semiconductors or insulators. They are widely used for cutting tools and high-temperature ceramics.

    Metal nitride
    These nitrides form by transition metal elements are metallic nitrides. The nitrogen atoms in these nitrides can also be called infill nitrides. This type of metal-type nitride is not a stoichiometric nitride, but its chemical composition may vary in a given range. Most metal-types nitrides have a NaCl type of structure and the chemical formula MN. In general, it is a metal-like material with properties such as high conductivity and hardness, a high melting point, wear resistance resistance, corrosion resistant, etc. It has many applications in the fields of cutting materials as well as electrode materials and catalyst materials.

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    Do you know what kinds of nitrides are?

    Overview of Nitrides Nitrides, which are binary nitrogen compounds with less electronegative elements, are also known as metallic nitrides. The nitrides produced by the direct interaction of nitrogen and transition elements are known as metallic nitrides. The "mesenchymal compound" name is due to the fact that nitrogen atoms are located in interstitial positions within metal crystal lattices. These compounds are similar in appearance, hardness and electrical conductivity to metals. These compounds are usually hard, have high melting points, are chemically durable, and are electrically conductive. Nitrogen compounds like titanium, vanadium and zirconium are refractory. They also have some special features, including chemical corrosion resistance, high-temperature resistance, and hardness. TiN has a melting temperature of 2 930 to 2 950°C, which makes it an excellent conductor of electricity and heat. Superconductivity is achieved at low temperatures, and it's used to make jet engines. ZrN, which is superconducting in low temperatures, is used now as a reactor.
    Nitrogen is highly corrosive and forms a series nitrides that include ionic and covalent nitrides as well as metallic nitrides.
    Lonic nitride
    The ionic nitrides consisting of alkali metals and alkaline Earth metals have crystals dominated by their ionic bonds. Nitrogen elements are found in N3- which is also called saltlike nitrides. Li3N, at the moment, is all that's used to make ionic nitrides. Li3N, a dark red solid with a hexagonal crystalline system and a melting temp of 813degC, is a dense solid. Simple synthesis with high ionic conducting properties. It is a solid lithium electrode that can be combined either with a liquid or granular form.
    Covalent Nitrides
    These nitrides consist of mainly covalent bonding. Compounds containing oxygen, VIIA-group elements and nitrogen should be called nitrogen oxides, or nitrogen halos. The covalent nitrides most widely used are those from group IIIa elements and IVA (such Bn, AlN GaN InN C3N4 Si3N4). Diamond nitride is so called because its structural unit is similar. High hardness, melting point and chemical stability. They are mostly semiconductors or insulators. They are widely used in cutting instruments, high-temperature materials, microelectronics devices, luminous material and other fields.
    Metallic Nitride
    These metallic nitrides are filled nitrides. Nitrides made by transition metals have nitrogen atoms located in the spaces between hexagonal or cubic metal lattices. These nitrides are not stoichiometric and their composition is flexible within a certain range. The majority of metal nitrides have a chemical formula Mn and are NaCl types. It is characterized by metallic lusters, high electrical conductivity and melting points, corrosion resistance, wear resistance, and high hardness. It can be used in cutting materials as well as electrode materials, catalyst materials, etc.
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    What is Magnesium Nitride Powder?

    What is it? Magnesium Nitride Powder? Magnesium-nitride, an inorganic compound, has the chemical composition Mg3N2. It is part of the cubic crystal system. It is a yellowish-green powder when it is heated to room temperature by pure magnesium nitride. However, magnesium nitride that contains a small amount of magnesium oxide impurities is grayish-white. Magnesium Nitride, like other metal nitrides reacts with the water to make ammonia, and is frequently used as a catalyst.
    Magnesium Nitride Pulver's properties
    Mg3N2 is its chemical formula. Molecular weight 100.95. The loose powder can be found in a range of colors, from yellow-orange to green-yellow. Relative Density 2.71225 Solventible in acid, insoluble with ethanol 800 and is easily broken down in water. Sublimation at 700°C under vacuum. It is split into MgOH22 and NH3 in the air. Preparation method for Mg(NH2)2: It can be prepared by heating MgEt2 to red heat and reacting magnesium with the nitrogen at high temperature. This is used to determine the moisture content of alcohol-containing fuels. Magnesium-nitride, an inorganic compound, has many uses. It can also be used to make nitrides with other elements, such as those with high hardness and high thermal conductivity, wear resistance, corrosion resistance and high temperatures resistance.
    Magnesium Nitride Properties
    Other Titles Trimagnesium diitride, Mg3N2 pulver
    No. 12057-71-5
    Combination Formula Mg3N2
    Molecular Weight 100.93
    Appearance Powder - Yellow to Brown
    Melting Point N/A
    Boiling Point N/A
    Density 2.71 g/cm3
    Solubility of H2O N/A
    Exact mass 99.961273
    Magnesium Nitride Mg3N2 powder CAS 12057 71-5
    Magnesium Nitride Pulver's applications
    1. It is used in the preparation of nitrides of elements with high hardness. Magnesium nitride was the catalyst that was used in the successful synthesizing of cubic boron trioxide.
    2. Additives to high-strength steel melting. Magnesium trioxide (Mg3N2) replaces the desulfurized magnesia in the smelting process of construction steel. It is beneficial for increasing the steel's strength, density, and tensile forces. The use of magnesium trioxide (Mg3N2) to desulfurize can also reduce other additives. This helps reduce the production costs of construction steel.
    3. Preparation and use of special ceramic materials
    4. Foaming agent to make special alloys
    5. This is used in the production of special glasses.
    6. Cross-linking catalytic polymer;
    7. Recycling nuclear waste
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    Aluminum Nitride – One of The Most Promising Ceramic Materials

    Aluminum nitride It's a covalent bonds compound. The chemical formula for the substance is AlN. Aluminum nitride has a hexagonal structure, which is similar to a diamond, and is non-toxic. It can also be called white or off-white. Aluminum nitride, a ceramic material, has exceptional comprehensive properties.
    Aluminum nitride or AlN has the properties of high strength and volume resistivity. Also, it is thermally expandable to high temperatures. It's used not only as a sintering agent or reinforcing layer in structural ceramics but also for other purposes, particularly in recent years. Its performance in ceramic electronic substrates and packaging materials far surpasses that of aluminum.

    The Use of Aluminum Nitride

    Used to enhance luminescent materials
    Aluminum nitride, also known as AlN, has a maximum band gap of 6.2eV. This gives it a higher photoelectric efficiency than indirect band gap semiconductors. AlN, a vital blue and ultraviolet light emitting material, is used in UV/deep ultraviolet light-emitting devices, ultraviolet laser diodes, as well as ultraviolet detectors.

    It is used in ceramics, refractory and other materials.
    Aluminum nitride can also be used to sinter structural ceramics. You can use the AlN ceramic's heat resistance and corrosion resistance to make high temperature, corrosion-resistant parts like crucibles and Al evaporate dishes.

    Composite materials
    As packaging materials, epoxy/AlN materials must be able to dissipate heat and thermally. This requirement is increasing. Epoxy resin, a polymer material, is easy to cure and has good chemical and mechanical properties. It also has low thermal conductivity. You can increase the material's strength and thermal conductivity by adding AlN Nanoparticles with high thermal conductivity.

    Piezoelectric device application
    Aluminum nitride exhibits high resistance, high thermal conductivity (8-10x that of Al2O3), as well as a low expansion coefficient comparable to silicon. It is a great material for high temperature and high power electronic devices.

    Apply to substrate material
    AlN crystal makes a great substrate for AlGaN, AlN and AlN epitaxial material. AlN and GaN substrates are better than SiC and sapphire. Also, the stress between the substrate & the epitaxial layers is lower than SiC.

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    What is Boron Nitride? Is Boron Nitride Hard?

    What is Boron Netride? Boron nitride It is a heat and chemical-resistant refractory compounds of boron, nitrogen with the chemical formula: BN.

    What is Boron Nitride's chemical characteristic?
    The empirical formula to make boron-nitride (BN), is misleading. BN is very different to other diatomic molecules, such as hydrogen chloride and carbon monoxide. Contrary to popular belief, BN has a lot of similarities with carbon. The representation of carbon as a single element C is also misleading.

    Is Boron Nitride (BN) Hard?
    Like carbon, BN can take many forms. The most stable structure is BN. hBN Has the same hexagonal structure and softness as graphite. You can also make hBN in graphene-like sheets, which can form nanotubes.

    Cubic boron nitride, (cBN), is electronically similar to diamond. It is not difficult to make, but it is thermally and chemically more stable. It is also much easier to make. It is not as hard to make as diamond. An amorphous version (aBN) is also available, which is an equivalent to amorphous carb (see below).

    BN is primarily a synthesized material. However, reports have indicated that there may be naturally occurring deposits. The first attempts to make pure BN date back to the 20th Century, although commercially acceptable forms have been developed only in the last 70 years. In the 1958 patent filed by Carborundum Company, Lewiston, New York, the scientist prepared BN using boric acid (H3BO3) heated in ammonia and metal salts oxyacids such as phosphate. The molded shape. Then, mix it up and shape it.

    Today, similar techniques are being used. They use diboron trioxide, H3BO3, or B2O3 as their nitrogen source, and either ammonia (or urea) as their starting point. Each synthesis method produces aBN that is somewhat impure. The aBN is then purified and converted to hBN by heating at temperatures higher than the one used for the synthesis. The preparation of synthetic diamonds requires that hBN be converted to cBN at high pressure and high temperatures.

    Boron Nitride applications
    Boron Nitride can be used extensively in modern industries.
    Hexagonalboron nitride can be used as a lubricant in paint, cosmetics pencil lead, dental cement, and other products. Its lubricating capabilities can still play a part in vacuum systems even if there aren't any gas or water molecules within the compound layer.

    BN has a significantly higher chemical stability and conductivity than graphite.

    Equipment under high-temperature environment
    The compound's exceptional heat resistance makes it suitable for applications that involve extremely high temperatures. Hexagonalboron nitride can be used to improve the lubricating characteristics of rubber, plastics alloys, ceramics, and ceramics.

    Plastics can have lower thermal expansion by using BN components. It can also be integrated in semiconductor substrates or microwave oven windows.

    Boron Nitride is a good ingredient in reaction vessels, crucibles and other applications due to its thermochemical capabilities.

    Semiconductor Industry
    The bandgap ranges between 4.5 and 6.4 eV for boron-nitride, making it an excellent widebandgap semiconductor material. Its thermal and dielectric qualities make it an ideal substrate for the development and fabrication of metal oxide field-effect transistors and semiconductors.

    Grinding and cutting tools
    Because of its physical properties, cubic boron is a polymorph that can be used to abrase nickel, iron, and other alloys. It's also suitable for use in situations not suitable for diamonds, such as extremely high temperatures. Its cubic form of boron nitride is used in grinding and cutting tools.

    Boron Nitride price
    Boron Nitride's price can vary depending on weather conditions, shipping fees, weather conditions, and so forth. Usually, 1.5lb of Boron Nitride costs more than $69 You can contact us to obtain the most recent price of Boron Nitride. We will send you a pricelist for boron nutride according to your requirements.
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    The Applications of Gallium Nitride

    What is it? Gallium Nitride Powder ?
    Gallium Nitride is an inorganic compound with the chemical formula GaN. It is a mixture of nitrogen and galium. It is a direct bandgap silicon and has been widely used in light emitting diodes ever since 1990. This compound exhibits a wurtzite like structure and high hardness. The energy gap for gallium nitride, 3.4 electrons per second, is extremely wide. This allows it to be used in high power, high speed optoelectronic components. Gallium nitride is a good choice for violet laser diodes. It can also be used in nonlinear semiconductor-pumped, solid-state lasers.
    The key features of Gallium Nitride Powder
    GaN is a very stable and hard melting material. Its melting point is approximately 1700 degC. GaN exhibits the highest degree of ionization (0.5 to 0.43) of all III-V compounds. GaN crystals are hexagonal wurtzite structures at atmospheric pressure. It contains 4 atoms in a cell and has an atomic volume about half of that of GaAs. It's a great coating protection material because of its high hardness.
    1. Chemical properties
    At room temperature, GaN can dissolve in water, acids, bases and hot alkaline solutions. However, it is insoluble at room temperature. For defect detection of low quality GaN crystals, NaOH and H2SO4 can quickly corrode the GaN. GaN has unstable properties at high temperatures and is more stable under N2 gas than HCL or hydrogen.
    2. The electrical characteristics
    The device's electrical properties are key factors. Intentionally doped GaN in all cases is n-type. At 4x1016/cm3, the electron concentration of best samples is around 4. Preparations of P-type specimens are usually highly compensated. Research in this area has been conducted by many groups. Nakamura was one of them. He reported that the highest mobility data for GaN were mn=600cm2/v*s (at room temperature) and mn=1500cm2/v*s (at liquid nitrogen temperature). The corresponding current carrying Subconcentrations are n=4x1016/cm3 or n=8x1015/cm3. In recent years, the electron concentration values for MOCVD-deposited GaN sheets are reported at 4 x 1016/cm3, and 1016/cm3 respectively. The results of plasma activated MBE are 8x 103/cm3, and 1017/cm3. The undoped carrier can be controlled within the range of 1014-1020/cm3. Additionally, the P-type process, thermal annealing and Mg low energy electron beam irradiation have allowed for the control of the doping level to be controlled at 1011-1020/cm3.
    Gallium Nickel GaN powder CAS 25617-97-4
    Gallium Nitride Powder's applications
    GaN material series can be used to develop high-temperature and high power electronic devices. Many GaN heterostructures can now be grown thanks to MBE technology, breakthroughs in thin-film growth technologies and progress in the application of GaN material. GaN material was used to create new devices, such as the Metal Field Effect Transistor(MESFET), Heterojunction Field Effect Transistor(HFET), Modulation Doped Field Effect Transistors (MODFET), and others. The AlGaN/GaN structure, which has been modulation-doped, has high electron mobility (2000cm2/v*s), high saturability (1x107cm/s), low dielectric constant and is preferred for making microwave device; GaN. The substrate's band gap is 3.4eV and sapphire, which allows the device to work under high power conditions.
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    What are Silicon Nitride Properties?

    Silicon nitride can be considered an essential engineering clay. High temperatures give silicon nitride excellent mechanical properties. These include low density and high bending strength. They also have high fracture toughness. The material has excellent thermal characteristics, can withstand rapid, significant temperature changes and minimizes expansion and contraction. The chemical properties of silicon nitride are excellent, with good stability to most acids, bases, corrosive gases and liquid metals.
    The results of rolling contact fatigue (RCF), tests on several ceramic-based materials that were subjected to high performance bearing loads have shown that only fully dense silicon nitride is capable of outperforming bearing steel. RCF has a ten-fold longer service life than high-performance steel bearings, thanks to its compact Si3N4 bearing. A high-speed rotating body may cause significant centrifugal stresses. Because it is a low-density metal, silicon nitride can be as light as aluminium. This material has an additional benefit. The low density Si3N4 helps to reduce the centrifugal stresses on the outer rings of the high speed rotating body. The high tensile strength and flexibility of silicon-nitride ceramics allows for resistance to elongation as well as high resistance to fracture under higher lateral stresses. The full density Si3N4 is also extremely resistant to fracture toughness and modulus. It is able to withstand severe operating conditions that could cause other ceramic materials such as cracking, deform and collapsing.

    It is capable of displaying superior mechanical properties and thermal properties. This makes silicon nitride suitable for demanding industrial applications. The inherent ability of a material or substance to conduct heat, called thermal conductivity. The heat transfer coefficient plays a critical role in determining the suitability for industrial applications. Silicon nitride, due to its unique chemical structure and microstructure, has the same low thermal conductivity of metals.

    These properties allow silicon-nitride greatly reduces thermal conductivity in extreme temperatures applications. The thermal expansion problem occurs when materials heat up and their size or volume increases in small increments. This expansion is dependent on the temperature of the material. The ratio of thermal expansion coefficients is a measure of the material's expansion per 1degC temperature increase. Because of the strong atomic bonds of Si3N4, this material has a low coefficient thermal expansion. It also experiences very little deformation when heated.

    The superior thermal properties of silicon nitride make it less sensitive to high-speed applications. Silicon nitride, which has a moderate dielectric constant (the capacity of a substance or material to store electric energy in an electrical field), is preferred for a wide range of RF applications. It also has excellent strength and heat resistance.

    This unique combination of properties has led to further research on silicon nitride's use in structural ceramics for biomedical applications. In vitro and in vivo studies, as well as later studies involving the injection of silicon dioxide into animals, have established the biocompatibility. An in vitro study from 1999 further confirmed the biocompatibility claim of Si3N4 for functional human bone cell proliferation. These findings support silicon nitride being a promising biomedical material. Additionally to its biocompatibility silicon nitride has surface chemical characteristics that encourage bone formation (osteogenesis), as well as increased bone contact with implants.

    Silicon nitride exhibits excellent stability because of its strong Atomic Bonds. This material is highly resistant to corrosion in acidic and alkaline environments at room temperatures. This is important when considering long-term implantation of silicon nitride in a salty and watery environment. This is due to the formation on the surface of the material of an oxide layer. When silicon nitride was subjected to hot gases, molten metals, or other chemicals, the same resistance was observed. This is how materials resist corrosion.

    Its unique microstructure that self-reinforces, its high strength, toughness and other excellent properties make silicon nitride a desirable structural component for many applications across a range of industries, including biomedical.

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    Hardness of Aluminum Nitride Ceramics

    What is Aluminum Nitride Ceramic?

    Aluminum nitride clays are ceramics containing aluminum nitride, (AIN), as the main crystal phase. Aluminum nitride is a main raw material to produce high thermal conductivity aluminum-nitride ceramic substrates. It has high purity, small particles, and high activity.

    Aluminum Nitride Ceramics: Hardness

    Aluminum nitride ceramics have become more widely used with the advances in science and technology. Aluminum nitride ceramics have many applications in today's world, including aerospace, electronics, semiconductor, and others. Aluminum nitride cermics exhibit high strength, hardness and wear resistance. The aluminum nitride clays have a hardness second only to diamond.

    Aluminum nitride is a key structural ceramic material. Its chemical formula is ALN. It is superhard and resists wear and oxidation at elevated temperatures. Aluminum nitride ceramics are possible to be made under normal pressure.

    First, aluminum-nitride ceramics rank fourth in organic materials. Hot-pressing sintering is the best way to obtain high-density aluminium nitride. It is extremely strong and resistant to oxidation. Additionally, it can be formed under extreme temperatures. It can be used for turbine blades in high-temperature, gas turbines. It can also be used for wear-resistant sealing and heating plates in the semiconductor industry to heat silicon wafers.

    Aluminum nitride ceramics have a high hardness, making them difficult to process. It can be difficult to process without the use of professional processing technology and advanced equipment. Material can be scrapped if it lacks craftsmanship.

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    Application of aluminum nitride ceramic materials

    What is aluminum nitride? ? Aluminum nitride This atomic crystal is a diamond-like Nitride, hexagonal crystal system, wurtzite crystal structure. It is non-toxic, safe for children, and can be white or off-white. Aluminum nitride has a high thermal shock value.
    The miniaturization and advancement of electronic products has led to electronic circuits and systems that are capable of high integration density and high functionality. Electronic parts have increasingly stringent requirements for their carrier substrate. The breakthrough in high thermal conductivity has been achieved through high integration and miniaturization. It is becoming increasingly difficult for traditional alumina ceramic sub-substrates to meet these development requirements. Aluminum nitride, which has excellent chemical and physical properties, has slowly become the most popular choice in packaging materials.

    Attenuation material for microwaves made of aluminum nitride
    Microwave attenuation research and applications have gradually extended from military purposes to everyday life. These include human safety protection, radar detection, waveguide and coaxial absorption components, as well as radar detection. It works by converting microwave energy into heat energy using the physical mechanism known as polarization. This is also used to exchange heat energy with the external environment. These techniques are increasingly being applied to high-power microwave vacuum devices.
    AlN has low dielectric losses. AlN is suitable for use as a microwave-attenuating material because it contains metals or ceramics that are electrically and thermally conductive. These materials can then be used to make Al N-based microwave ceramics. The conductive additives used in this research are carbon nanotubes, TiB2, and TiC. Metals such as Mo and W are also included.
    Aluminum nitride, heat-resistant material
    Aluminum nitride does not wet with aluminum, calcium and other metals. This makes it ideal for use as a crucible or protective tube, casting mould, mold mold, etc. Aluminum nitride ceramics may be used in the protection tube for immersion thermocouples. It is able to be used in the molten pools at 8001000 for up to 3000 hours and it will not corrode. destroy. Because aluminum nitride materials can withstand molten salt gallium senide and other substances, the crucible can now be replaced by glass to synthesize gallium senide semiconductors. This allows for complete elimination of silicon pollution and high-purity Gallium arsenide.
    Aluminum nitride clays have a high strength at room temperatures and are resistant to temperature changes. They have high thermal conductivity, low thermal expansion coefficients and a relatively high thermal conductivity. It is both a heat-resistant material as well as a heat exchange material. It can be used to heat exchangers in gas turbines. Materials that are heat resistant and heat exchange.
    AlN ceramic materials are versatile and have many potential markets. They can be used in electronic, electric power, locomotives and aviation.
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    What is Titanium Nitride?

    What is Titanium Nitride? Titanium Nitride is a compound that has a molecular structure of TiN and a mass of 61.88. TiN powder can be found in yellow-brown colors, but the ultra-fine TiN is black and the TiN crystals are golden yellow. TiN's melting point is 2950. The Mohs hardness 8-9 is excellent, and it is resistant to thermal shock. TiN has both a higher melting point and lower density than many transition metal nitrides. It can be used in conductive materials, such as electrodes or electrical contacts for molten Salt Electrolysis. The main features and benefits of Titanium Nitride There are two types of titanium dioxide (Ti2N2), and one type of titanium tetranitride. Titanium dinitride, a yellow solid, is also known as titanium nitride. In boiling water, dissolve. Hot sodium hydroxide solution will release ammonia. The properties of titanium Tetranitride are very similar to that of titanium dioxide. It is possible to make it directly by reacting titanium with nitrogen at 1200°C. It can be made by using a vapor-deposition process of titanium tetrachloride (nitrogen) and hydrogen mixed gases. Titanium dinitride results from heating titanium metal in nitrogen, ammonia, at 900 to 1000°C. Titanium tetranitride results from heating titanium tetrachloride with ammonia at 1000°C.
    Titanium Nickel Nitride Properties
    Other Titles Tinite, TiNite, TiN powder, nitridotitanium
    No. 25583-20-4
    Combination Formula TiN
    Molecular Weight 61.87
    Appearance Brown Powder
    Melting Point N/A
    Boiling Point N/A
    Density 5.24 g/cm3
    Solubility of H2O N/A
    Exact 61.951
    Titanium Nitride Nitride TiN powder CAS 25583-20-4
    Titanium Nitride and its applications 1. For metal edges, titanium nitride is widely used to protect against corrosion of tools like drills and milling cutters. It can also be used to prolong the life of these machines by up to three times. 2. Its metallic luster is why it is used often as an ornament for clothes and automobiles. Nickel (Ni) and chromium are often used as an exterior coating for package pipes, door and window hardware, and as a plating substrate. 3. It is used in aerospace, military, as well to protect bicycles and motorbikes' sliding surfaces, and the shock-absorbing shafts on remote-controlled toys cars. 4. The FDA approved material is non-toxic. It can also be used in medical devices. For example, it can maintain the sharp edges of scalpel blades. 5. As a conductive barrier between metal contacts and active devices, titanium nitride film can be used in microelectronics. It is possible to make a good conductive connection by diffusing the film onto metal silicon. 6. This "barrier" metal also has the mechanical and chemical properties of ceramics. It is heavily used in 45nm chip designs to increase transistor performance. By combining titanium Nitride with a gate Dielectric Layer (eg, HfSiO), a battery field that uses titanium nitride can achieve a higher dielectric constant, greater gate length, lower leakage and thereby a better threshold voltage. 7. The high biological stability extends the application field of this alloy to bioelectronic electrodes, such as subretinal prosthesis projects and microelectromechanical systems (biological microelectromechanical systems) in biomedicine, making smart implants or in vivo biosensors Able to withstand severe body fluid corrosion. The main supplier of Titanium Nitride Tech Co., Ltd. () is a professional nitride powder Over 12 years' experience in chemical products development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers. You can find high-quality powdered boron carbide here Please contact us Send an inquiry
    Sell Chemical Coating Indirect Method Zinc Oxide 99.7%
    CAS No.: 1314-13-2
    Formula: ZnO
    EINECS: 215-222-5
    Classification: Zinc Oxide
    Grade Standard: Industrial Grade
    Kind: Amphoteric Oxide
    Haoyue S200 Spark Plasma Sintering Current Density Equipment/Machine/System/Furnace
    Type: Ceramic Heating Equipment
    Certification: ISO
    Structure: Horizontal
    Brand: Haoyue
    Max. Sintering Temp: 2200ºC
    Sample Diameter: <=φ200mm

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    Metal Alloy

    Alloy is a mixture with metallic properties synthesized by two or more metals and metals or non-metals by certain methods. Generally obtained by fusion into a homogeneous liquid and solidification. According to the number of constituent elements, it can be divided into binary alloys, ternary alloys and multi-element alloys. Two...


    Nanometer-scale structural materials are referred to as nanometer materials for short, which refer to the size of their structural units ranging from 1 nanometer to 100 nanometers. Since its size is close to the coherence length of electrons, its properties are greatly changed due to the self-organization brought about by...

    Stearic Acid Series

    Stearic acid, namely octadecanoic acid, molecular formula C18H36O2, is produced by the hydrolysis of oil and is mainly used to produce stearate. Dissolve each gram in 21ml of ethanol, 5ml of benzene, 2ml of chloroform or 6ml of carbon tetrachloride. Applications of Stearic acid Mainly used in the production of...

    Selenide Powder

    There is a typical antagonism between selenium and metals, and selenium with different valences can combine with metal ions to form metal selenides. Metal selenides have attracted much attention in recent years due to their excellent optoelectronic and catalytic properties, and have potential applications in solar cells, pollutant degradation, and...

    Telluride Powder

    Tellurium is a typical scattered element. Tellurium and its compounds are widely used in metallurgy, chemical industry, electronics, energy, medicine and health and other industries.Telluride is a compound of tellurium with a metal or a non-metal. Such as the representative of the telluride with a non-metal is hydrogen telluride, which...

    Silicide Powder

    Binary compounds formed by certain metals (such as lithium, calcium, magnesium, iron, chromium, etc.) and some non-metals (such as boron, etc.) and silicon. Generally crystalline, with metallic luster, hard and high melting point. Uses of Silicide Powder Metal silicide as an electric heating element is one of its earliest applications....

    Nitride Powder

    Nitride is similar to metal in appearance, hardness and conductivity, and generally has high hardness, high melting point, stable chemical properties, and electrical conductivity. Such as titanium nitride, vanadium nitride, zirconium nitride, tantalum nitride, etc. is hard and refractory, and has the characteristics of chemical corrosion resistance and high temperature...

    Carbide powder

    Carbide powder is a binary compound formed by carbon (other than hydrogen) which is smaller or similar to electronegativity. Carbides have a higher melting point. Most carbides are carbon and metal at high temperatures. The next reaction is obtained. The properties of the element are divided into metal carbides and...

    Oxide Powder

    Oxide powder is the chemical compound solid powder contains one oxygen and another element, such as metal oxides, metal oxides are a chemical compound formed between metals, specifically cations such as Na, K, Li, etc., and oxygen. These compounds require at least of two elements, as compounds do, and always...

    Sulfide Powder

    Sulfide powder refers to the chemical compounds powder with large families of inorganic and organic compounds, e.g. copper sulfide, Zinc sulfide, molybdenum disulfide, tungsten disulfide powders and so on. Sulfides and their similar compounds include a series of metals and semi-metallic elements combined with S, Se, Te, As, Sb, Bi...

    3D Printing Powder

    3D Printing powder are metal powders that are reduced to fine particles. 3D printing metal powder are the the preliminary base materials for most 3D printing processes that produce metallic parts. 3D printing, also known as additive manufacturing (AM), is the manufacturing of parts and products in a layer-by-layer fashion....

    Boride Powder

    Metallic boride powders are very unique but functional new ceramic materials.The boride powders have many advantages such as high melting point, high hardness, good electrical conductivity and thermal conductivity. Therefore, boride powder can be used as heat-resistant and hard materials that can be accurately processed by electric discharge machining. Such...


    Elementary substance is a pure chemical substance that consists of atoms belonging to a single chemical element, it is widely used in many industrial fields. Are you looking for high purity & quality elementary substance such as hafnium diboride powder, zirconium diboride powder, aluminum diboride powder, magnesium diboride powder? Biomedicalmaterialsprogram...

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